Keyphrases
Design Optimization
100%
Mechanical Response
100%
Specific Absorption Rate
100%
Taguchi Method
100%
Reinforced
100%
Deformation Mechanism
100%
Poisson's Ratio
100%
Metamaterials
100%
Crushing Behavior
100%
Auxetic Metamaterials
100%
Mean Crushing Force
100%
Energy Absorption Ratio
100%
Re-entrant Auxetic
100%
Inclined Strut
100%
Edge Cells
100%
Specific Strength
100%
Mechanical Behavior
50%
Mechanical Performance
50%
Compressive Strength
50%
Relative Contribution
50%
Energy Absorption
50%
Failure Behavior
50%
Re-entrant
50%
Compressive Load
50%
Slot Width
50%
Parametrized
50%
Two-sample
50%
3D Printing
50%
Geometric Factor
50%
Experimental Simulation
50%
Taguchi Design
50%
Design Tables
50%
Maximum Compressive Strength
50%
Compressive Failure
50%
Inclined Rib
50%
Cell-wall Angle
50%
FE Simulation
50%
Asymmetrical Cell
50%
Compression Load
50%
Relative Significance
50%
Contribution Rate
50%
Engineering
Mechanical Response
100%
Specific Energy Absorption
100%
Taguchi Method
100%
Design Optimization
100%
Poisson Ratio
100%
Deformation Mechanism
100%
Compression Strength
100%
Compressive Strength
100%
Simulation Result
50%
Mechanical Performance
50%
Compression Load
50%
Failure Behavior
50%
Absorbed Energy
50%
Design Factor
50%
Relative Significance
50%
Slot Width
50%
Geometric Factor
50%
Mechanical Property
50%
Fem Model
50%
Three Dimensional Printing
50%
Material Science
Metamaterial
100%
Taguchi Method
100%
Compressive Strength
50%
Deformation Mechanism
50%
Poisson Ratio
50%
Mechanical Property
25%
Finite Element Modeling
25%
Three Dimensional Printing
25%
Compression Load
25%